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Numerical simulation of haemodynamics of the descending aorta in the non-diabetic and diabetic rabbits.

Authors :
Zhou, Yuanhang
Tong, Jianhua
Li, Xin
Li, Xuanyu
Wang, Guixue
Source :
Journal of Biomechanics. Jun2019, Vol. 91, p140-150. 11p.
Publication Year :
2019

Abstract

Diabetes mellitus (DM) is a predisposing risk factor leading to macrovascular diseases. Changes in haemodynamics of the diabetic aortas remain largely unclear and relevant computational analyses are lacking in the literature. Ten adult rabbits (1.6–2.2 kg) were collected and the type I diabetic rabbit model was induced by injection of alloxan. A total of five control and five diabetic rabbit aortas were considered for subsequent numerical simulation. The CT scanning was performed to reconstruct three-dimensional model of the individual rabbit descending aorta. The flow velocity waveforms were measured by ultrasound machine and were set to be the inlet boundary conditions. The reconstructed aortas were then imported into ANSYS to perform mesh generation and computational analysis. Results showed that the distributions of haemodynamic indicators time-averaged wall shear stress (TAWSS), oscillating shear index (OSI) and transverse wall shear stress (transWSS) in the non-diabetic rabbit aortas were similar to those in the diabetic rabbit aortas. However, the mean values of TAWSS and transWSS in the non-diabetic rabbit aortas were significantly higher than those values in the diabetic rabbit aortas (TAWSS: p = 0.04; transWSS: p = 0.02). The back of right renal artery tended to have high OSI in both the non-diabetic and the diabetic rabbit aortas. Notably, the regions with high OSI tended to have intense disturbed flow and low TAWSS in the most diabetic rabbit aortas. The results suggest that diabetes leads to changes in haemodynamic parameters in the rabbit aortas. In particular, the lower TAWSS and the higher OSI within the diabetic aortas may further contribute to aortic wall remodeling. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00219290
Volume :
91
Database :
Academic Search Index
Journal :
Journal of Biomechanics
Publication Type :
Academic Journal
Accession number :
136984102
Full Text :
https://doi.org/10.1016/j.jbiomech.2019.05.013